Effect of stabilizers in the thermal treatment of PVC—VII. An i.r. spectroscopic study of the association of stearic acid in PVC

Effect of the 2:1 combination of Na and Zn stearates on the stabilization of PVC exposed to thermal stress at 180 ° in air has been studied by i.r. spectrometry (190(~1350cm 1) and by determination of Zn, Na and CI-in the decomposition products of the stearates (NaCI, ZnCI2). Complexation of both co

A~tract--Infra-red spectra (2300-2000 cm ~) were studied for cast PVC films obtained after separation of the unreacted, partly deuterated Cd stearate from samples subjected to thermal degradation at 180" in air. Based on the absorbance at 2140 cm -1 corresponding to the C-D stretching vibration, the

A new form of barium stearate observed after cooling the technical grade (containing also barium palmitate) after heating above the transition temperature is characterized by i.r. spectroscopy and X-ray study. Transition between two forms stable at room temperature is accomplished in the presence of

Antimony tris(isooctyl thioglycolate) [Sb(IOTG)3 ] is a powerful thermal stabilizer for PVC, particularly if added in quantities up to 2% (m/m) with respect to PVC. During the stabilizing action, (IOTG)2SbC1 is formed while the rate of elimination of HCI from the polymer decreases appreciably. The t